EXPERIMENTAL STUDY ON FLOW-INDUCED VIBRATION CHARACTERISTICS OF A SINGLE ROD IN AXIAL FLOW

Abstract

In order to study the characteristics of single rod flow-induced vibration in axial flow, the vibration response of single rod flow-induced vibration in axial flow with different constraints at both ends and different flow velocity was measured with a Laser Doppler Vibrometer. Based on spectral analysis and statistical analysis, the transient vibration response was analyzed in depth. The results show that the vibration amplitude increases with the increase of the flow velocity, and the two ends of the constraints have a significant influence on the flow-induced vibration response. The root means square amplitude value of the simply-supported single rod is 35% larger than that of the fixed one at 3 m/s. Spectrum analysis shows that with the increase of flow velocity, the dominant frequency decreases from 17.5 Hz at 1.5 m/s to 13.8 Hz at 3.0 m/s under simply-supported constraints, while the dominant frequency basically fluctuates around 13.0 Hz under fixed support constraints. The vibration frequency of simply-supported constraints are distributed between 6 Hz and 28 Hz, while those of fixed constraints are mainly distributed between 12 Hz and 16 Hz. The statistical results show that in the X direction of the simply-supported constraints, the geometric center point of the rod is shifted, which indicates that the rod is buckling.